Low-Dimensional Galerkin Models for Nonlinear Vibration and Instability Analysis of Cylindrical Shells |
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Authors: | Paulo B. Gonçalves ZenÓn J. G. N. DEL PRADO |
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Affiliation: | (1) Civil Engineering Department, Catholic University, PUC-Rio, 22453-900, Rio de Janeiro, Brazil;(2) Civil Engineering Department, Federal University of Goiás, UFG, 74605-220 Goiânia, GO, Brazil |
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Abstract: | This paper discusses the derivation of discrete low-dimensional models for the non-linear vibration analysis of thin shells. In order to understand the peculiarities inherent to this class of structural problems, the non-linear vibrations and dynamic stability of a circular cylindrical shell subjected to dynamic axial loads are analyzed. This choice is based on the fact that cylindrical shells exhibit a highly non-linear behavior under both static and dynamic axial loads. Geometric non-linearities due to finite-amplitude shell motions are considered by using Donnell’s nonlinear shallow shell theory. A perturbation procedure, validated in previous studies, is used to derive a general expression for the non-linear vibration modes and the discretized equations of motion are obtained by the Galerkin method. The responses of several low-dimensional models are compared. These are used to study the influence of the modelling on the convergence of critical loads, bifurcation diagrams, attractors and large amplitude responses of the shell. It is shown that rather low-dimensional and properly selected models can describe with good accuracy the response of the shell up to very large vibration amplitudes. |
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Keywords: | dynamic buckling modal coupling nonlinear vibrations thin-walled shells |
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